Wake-up method, station, and access point

1. A wake-up method, performed in a communications system, the communications system comprising an access point (AP) and at least one station (STA), the AP comprising a wake-up transceiver (WUR) and a main transceiver, and the method comprising: determining, by a first STA, that the AP is in a sleep state, wherein when the AP is in the sleep state, the main transceiver of the AP is in an off state; transmitting, by the first STA, a wake-up frame to the WUR of the AP, wherein the wake-up frame triggers the WUR of the AP to wake up the main transceiver of the AP; transmitting, by the first STA, a first capability information frame to the main transceiver of the AP, wherein the first capability information frame carries first indication information, and the first indication information indicates whether the first STA has a capability of transmitting the wake-up frame; and receiving, by the first STA, a second capability information frame transmitted by the AP using the main transceiver of the AP, wherein the second capability information frame carries second indication information and/or third indication information, the second indication information indicates whether the AP comprises the WUR, and the third indication information indicates whether the AP can be woken up by the first STA.

2. The method according to claim 1 , wherein the second capability information frame further carries a wake-up identifier, and the wake-up identifier identifies the WUR of the AP; and the transmitting, by the first STA, the wake-up frame to the WUR of the AP comprises: transmitting, by the first STA, the wake-up frame to the WUR of the AP based on the wake-up identifier, wherein the wake-up frame carries the wake-up identifier.

3. The method according to claim 1 , wherein the method further comprises: receiving, by the first STA, a sleep notification frame transmitted by the AP using the main transceiver of the AP, wherein the sleep notification frame carries sleep state indication information, and the sleep state indication information indicates information related to the sleep state; and the determining, by a first STA, that the AP is currently in a sleep state comprises: determining, by the first STA based on the sleep state indication information, that the AP is currently in the sleep state.

4. The method according to claim 3 , wherein the sleep state indication information comprises at least one of the following indication information: a fourth indication information that indicates that the AP enters the sleep state after the AP has transmitted the sleep notification frame, a fifth indication information that indicates a time at which the AP starts to enter the sleep state, a sixth indication information that indicates a duration in which the AP is in the sleep state, a seventh indication information that indicates a quantity of sleep notification frames that the first STA further needs to receive in a receive period of the sleep notification frame after the first STA has received the sleep notification frame, or an eighth indication information that indicates a work mode of the WUR of the AP in a time period in which the AP is in the sleep state, and wherein the work mode comprises an always-on work mode and a periodically-on work mode.

5. The method according to claim 4 , wherein the eighth indication information indicates that the work mode of the WUR of the AP is the periodically-on work mode in the time period in which the AP is in the sleep state, the sleep state indication information further comprises ninth indication information, and the ninth indication information indicates a time period in which the WUR of the AP is in an on state; and the transmitting, by the first STA, a wake-up frame to the WUR of the AP comprises: transmitting, by the first STA, the wake-up frame to the WUR of the AP in the time period indicated by the ninth indication information.

6. The method according to claim 3 , wherein the sleep state indication information further comprises contention window size information, and the contention window size information indicates a size of a contention window; and the transmitting, by the first STA, a wake-up frame to the WUR of the AP comprises: determining, by the first STA, a transmit time of the wake-up frame based on the size of the contention window in a time period in which the WUR of the AP is in an on state; and transmitting, by the first STA, the wake-up frame to the WUR of the AP at the transmit time of the wake-up frame.

7. A station (STA) of a communications system, the communications system comprising an access point (AP) and at least one STA, the at least one STA comprising the STA, the AP comprising a first wake-up transceiver (WUR) and a first main transceiver, and wherein the STA comprises: a processor configured to determine that the AP is currently in a sleep state, wherein when the AP is in the sleep state, the first main transceiver of the AP is in an off state; a second WUR, coupled with the processor, configured to transmit a wake-up frame to the first WUR of the AP, wherein the wake-up frame triggers the first WUR of the AP to wake up the first main transceiver of the AP; and transmit a first capability information frame to the first main transceiver of the AP, wherein the first capability information frame carries first indication information, and the first indication information indicates whether the STA has a capability of transmitting the wake-up frame; and receive a second capability information frame transmitted by the AP using the first main transceiver of the AP, wherein the second capability information frame carries second indication information and/or third indication information, the second indication information indicates whether the AP comprises the WUR, and the third indication information indicates whether the AP can be woken up by the STA.

8. The STA according to claim 7 , wherein the second capability information frame further carries a wake-up identifier, and the wake-up identifier identifies the first WUR of the AP; and the second WUR is configured to transmit the wake-up frame to the first WUR of the AP based on the wake-up identifier, wherein the wake-up frame carries the wake-up identifier.

9. The STA according to claim 7 , wherein the second main transceiver is further configured to: receive a sleep notification frame transmitted by the AP using the first main transceiver of the AP, wherein the sleep notification frame carries sleep state indication information, and the sleep state indication information indicates information related to the sleep state; and the processor is configured to determine, based on the sleep state indication information, that the AP is currently in the sleep state.

10. The STA according to claim 9 , wherein the sleep state indication information comprises at least one of the following indication information: a fourth indication information that indicates that the AP enters the sleep state after the AP has transmitted the sleep notification frame, a fifth indication information that indicates a time at which the AP starts to enter the sleep state, a sixth indication information that indicates a duration in which the AP is in the sleep state, a seventh indication information that indicates a quantity of sleep notification frames that the STA further needs to receive in a receive period of the sleep notification frame after the STA has received the sleep notification frame, or an eighth indication information that indicates a work mode of the first WUR of the AP in a time period in which the AP is in the sleep state, and the work mode comprises an always-on work mode and a periodically-on work mode.

11. The STA according to claim 10 , wherein the eighth indication information indicates that the work mode of the first WUR of the AP is the periodically-on work mode in the time period in which the AP is in the sleep state, the sleep state indication information further comprises ninth indication information, and the ninth indication information indicates a time period in which the first WUR of the AP is in an on state; and the second WUR is configured to: transmit the wake-up frame to the first WUR of the AP in the time period indicated by the ninth indication information.

12. The STA according to claim 9 , wherein the sleep state indication information further comprises contention window size information, and the contention window size information indicates a size of a contention window; and the second WUR is configured to: determine a transmit time of the wake-up frame based on the size of the contention window in a time period in which the first WUR of the AP is in an on state; and transmit the wake-up frame to the first WUR of the AP at the transmit time of the wake-up frame.

13. An access point (AP) of a communications system, wherein the communications system comprises the AP and at least one station (STA), and the AP comprises: a processor; a wake-up transceiver, coupled with the processor, (WUR) configured to receive a wake-up frame transmitted by a first STA, wherein the wake-up frame triggers the WUR to wake up a main transceiver of the AP, and the WUR is further configured to wake up the main transceiver based on the wake-up frame; wherein the main transceiver is configured to: receive a first capability information frame transmitted by the first STA, wherein the first capability information frame carries first indication information, and the first indication information indicates whether the first STA has a capability of transmitting the wake-up frame, and transmit a second capability information frame to the first STA, wherein the second capability information frame carries second indication information and/or third indication information, the second indication information indicates whether the AP comprises the WUR, and the third indication information indicates whether the AP can be woken up by the first STA, wherein the second capability information frame further carries a wake-up identifier, and the wake-up identifier identifies the WUR of the AP, and wherein the wake-up frame carries the wake-up identifier.

14. The AP according to claim 13 , wherein the main transceiver is further configured to: transmit a sleep notification frame to the first STA, wherein the sleep notification frame carries sleep state indication information, and the sleep state indication information indicates information related to a sleep state.

15. The AP according to claim 14 , wherein the sleep state indication information comprises at least one of the following indication information: a fourth indication information that indicates that the AP enters the sleep state after the AP has transmitted the sleep notification frame, a fifth indication information that indicates a time at which the AP starts to enter the sleep state, a sixth indication information that indicates a duration in which the AP is in the sleep state, a seventh indication information that indicates a quantity of sleep notification frames that the first STA further needs to receive in a receive period of the sleep notification frame after the first STA has received the sleep notification frame, or an eighth indication information that indicates a work mode of the WUR in a time period in which the AP is in the sleep state, and the work mode comprises an always-on work mode and a periodically-on work mode.

16. The AP according to claim 15 , wherein the eighth indication information indicates that the work mode of the WUR is the periodically-on work mode in the time period in which the AP is in the sleep state, the sleep state indication information further comprises ninth indication information, and the ninth indication information indicates a time period in which the WUR is in an on state.

17. The AP according to claim 14 , wherein the sleep state indication information further comprises contention window size information, and the contention window size information indicates a size of a contention window, so that the first STA determines a transmit time of the wake-up frame based on the size of the contention window in a time period in which the WUR is in an on state.